The Role of Amino-Terminal and Carboxy-Terminal Extensions in the Processing and Translocation of a Plant Proteinase (Actinidin) Expressed in the Yeast Saccharomyces cerevisiae

Summary A plant proteinase gene naturally occuring in the Kiwi fruit plant ( Actinidia chinensis ) has been expressed in a yeast Saccharomyces cerevisiae . Different gene constructions consisting of different portions of the whole actinidin-encoding gene have been created and expressed using an expression-secretion yeast vector. It was observed that the amino- and carboxy-terminal extensions of the actinidin-encoding gene were required for the correct expression of the gene in yeast. A gene construction lacking both amino- and C-terminal extensions did not result in a detectable protein product. Similarly, a gene construction consisting of the amino-terminal extension plus mature actinidin-encoding DNA did not result in a detectable expression. However, intracellular expression was observed when a gene construction consisting of mature actinidin-encoding DNA plus C-terminal extension portion was employed. The expressed polypeptide was found however not to be correctly processed as it had a bigger size than the native actinidin. The correctly processed polypeptide was expressed intracellularly when the full-length actinidin cDNA was expressed in a vacuolar protease-proficient yeast strain. However, when a vacuolar protease-deficient yeast strain was employed, it was found that the precursor protein was not correctly processed, suggesting that the actinidin precursor had entered the vacuole and undergone proteolytic processing. The full-length actinidin cDNA consisted of the amino-terminal extension DNA, mature actinidin-encoding DNA, and C-terminal extension DNA. The results thus suggested that both amino- and C-terminal extensions were required for correct expression and processing of actinidin in yeast. The intracellular expression also suggested that the actinidin-encoding sequences contain intracellular targeting sequences which override the secretion signal included in the expression-secretion vector.